Methods and apparatus for jewelry

ABSTRACT

Methods and apparatus for jewelry may comprise a locket system comprising first and second portions that may be attached to define an interior cavity. The locket system may be selectively coupled by a connector system. The connector system may comprise a pivotal connection configured to selectively pivot the second portion relative to the first portion to provide access to the interior cavity, a biasing mechanism adapted to substantially bias the first portion and the second portion into a closed position, and an engagement point adapted to constrain inadvertent movement of the first portion relative to the second portion when the first portion and the second portion are in a closed position. Methods and apparatus for jewelry may further comprise an insert system for insertion into a locket system adapted to retain a desired position within the interior cavity.

CROSS-REFERENCES TO RELATED APPLICATIONS

This application is a Nonprovisional of U.S. Provisional Patent Application Ser. No. 61/918,253, filed on Dec. 19, 2013, and incorporates the disclosure of the application in its entirety by reference. To the extent that the present disclosure conflicts with any referenced application, however, the present disclosure is to be given priority.

BRIEF BACKGROUND

Human use of jewelry extends beyond memory, tradition or recorded history. Throughout recorded history, jewelry has been used for many purposes. Like painting or poetry, jewelry may be used as a form of expression or assertion of a user's personality, feelings or ideas, demonstrating the uniqueness of a user. Jewelry may simultaneously be used to provide a functional way of storing personal effects in a meaningful way.

Jewelry is generally designed to form a single invariable unit of static design, preventing a user from customizing the jewelry to different parts of the user's body, or to serve different functional purposes. While various modular jewelry designs, including lockets, have been proposed in the prior art, much of the prior art focuses on either functionality or artistic need but not both.

A need exists for a customizable jewelry system with interconnecting and exchangeable modular components adapted to substantially easily attach and detach to and from any one or more of the other modular components in matter of seconds without any particular training, tools, or effort, while still fulfilling a desired functional purpose. A customizable jewelry system allows the user to build or alter the various modular components according to individual or personalized specifications and functions.

BRIEF SUMMARY Of THE TECHNOLOGY

Methods and apparatus for jewelry may comprise a locket system comprising first and second portions that may be attached to define an interior cavity. The locket, system may be selectively coupled by a connector system. The connector system may comprise a pivotal connection configured to selectively pivot the second portion relative to the first portion to provide selective access to the interior cavity, a biasing mechanism adapted to substantially bias or urge the first portion and the second portion into a closed position, and an engagement point adapted to constrain inadvertent movement of the first portion relative to the second portion when the first portion and the second portion are in a closed position. Methods and apparatus for jewelry may further comprise an insert system for insertion into a locket system adapted to a desired position of the main body within the interior cavity.

BRIEF DESCRIPTION OF THE DRAWING FIGURES

A more complete understanding of the claimed technology may be derived by referring to the detailed description of exemplary embodiments and claims in connection with the following illustrative figures. In the following figures, like reference numbers ordinarily refer to similar elements and steps.

FIG. 1A representatively illustrates a perspective view of a locket system in a closed position, respectively;

FIG. 1B representatively illustrates a top view of a locket system in a closed position;

FIG. 1C is a cross-sectional view taken along line A-A of FIG. 1B, representatively illustrating a side view of an interior cavity of the locket system;

FIG. 2A representatively illustrates the locket system in an open position, with the first portion in an exemplary angular orientation relative to plane B-B of the second portion;

FIG. 2B representatively illustrates the locket system shown in FIG. 2A in exploded view;

FIG. 3A representatively illustrates a first portion of the locket system of FIGS. 2A-B;

FIG. 3B representatively illustrates a second portion of the locket system of FIGS. 2A-B;

FIG. 4A representatively illustrates the first portion of the locket system of FIGS. 2A-B;

FIG. 4B representatively illustrates the second portion of the locket system of FIGS. 2A-B;

FIG. 5 representatively illustrates a front view of a locket insert;

FIG. 6A representatively illustrates a front view of a locket system having a decorative surface comprising an embedded decorative object; and

FIG. 6B is a close up cross-sectional, view taken, along line D-D of FIG. 6A.

The drawings are for illustration purposes only and are not intended to limit the scope of the disclosed embodiments in any way. The drawings illustrate only selected embodiments and not all possible implementations, and are not intended to limit the scope of any of the various embodiments. The drawings may not be drawn to scale.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

Various aspects of the present technology may be described in terms of functional block components and various processing steps. Such functional blocks may be realized by any number of components configured to perform the specified functions and achieve the various results. For example, exemplary embodiments of the present technology may employ various Socket systems, articulating mechanisms, biasing mechanisms. Socking mechanisms, linking elements such as chains, charms and locket system inserts, and seals, and the like, which may carry out a variety of functions. In addition, various aspects of the present technology may be practiced in conjunction with any number of jewelry systems, and the apparatus and methods described are merely exemplary applications for the technology. Further, exemplary embodiments of the present technology may employ any number of conventional techniques for assembly, disassembly, and the like.

Methods and apparatus for a locket, system may operate in conjunction with any suitable jewelry system. Certain representative implementations of a jewelry system may include, for example, lockets, bracelets, broaches, necklaces, and the like. The jewelry system may be suitably configured to couple the locket system to any appropriate portion of the user's body to display the locket system components and any elements attached, adhered, embedded, or otherwise disposed on or within the locket system components. For example, the locket system may be attached to a limb, for example adjacent a user's neck or wrist. The jewelry system may comprise any shape or size suitable to couple the locket system to a portion of the user's body and/or to display the various locket system components. For example, in various embodiments, the jewelry system may comprise a looped article of wearable apparel, such as a necklace, bracelet, choker, belt, or the like.

In various embodiments, the locket system may operate in conjunction, with a large collection of different, jewelry system components elements to allow a user to design a vast array of different items, limited only by the creativity of the user. For example, the locket system may operate in conjunction with a collection of multiple different types of linking elements, such as chains of various sizes, lengths, links, etc. The locket system may also operate in conjunction with hundreds or thousands of different charms and inserts that may be selected or created by the user. Further, the locket system may operate in conjunction with a variety of different locket systems, such as modular or nonmodular lockets, which may have single or multiple points for connection to other items, such as connection points, interior cavities, and the like. By selecting among the various jewelry elements and assembling them according to the user's desire, the variations and possibilities for creativity approach the infinite.

In various embodiments, the locket system may comprise a modular interchangeable jewelry system comprising any number of interconnecting selectable and exchangeable modular components adapted to substantially easily attach and detach for assembly into a single article of wearable apparel. For example, the modular interchangeable jewelry system may comprise one or more modular locket systems adapted to substantially easily attach to and detach from the one or more modular locket systems, linking elements, and/or any other modular component. The interconnecting and exchangeable modular components may be adapted to substantially easily attach and detach to and from any one or more of the other modular components in matter of seconds without any particular training, tools, or effort.

Referring to FIG. 1A-C, a locket system 100 according to various aspects of the present system comprises a case, such as a small ornamental case worn as a pendant or bracelet, for storing one or more charms, photographs, curls of hair, keepsakes, or other items. The locket system 100 may include an interior cavity 120, such as an environmentally-controlled interior cavity, with at least one substantially transparent or translucent window to display the interior cavity 120 and its contents. In addition, the Socket system 100 may include a small door or cover over the window that may open to reveal the contents of the locket system 100 without opening the interior cavity 120 in which the contents are stored.

The locket system 100 may be configured in any suitable shapes, such as ovals, hearts, and circles, and may comprise any suitable materials, such as plastic, metal, ceramic, glass, precious metals, and the like. For example, in one exemplary embodiment, the locket system 100 may be configured in the shape of a heart. In various embodiments, the portion comprising a front or back portion of the locket system 100 may be configured to be beveled, flat, circular or any other configuration contemplated by one of ordinary skill in the art. The locket system 100 may include a connection point 115. For example, the connection point 115 may comprise one or more bails, either fixed or configured to spin or otherwise move. In various embodiments, the locket system 100 may comprise a concave bevel 125 configured to allow a user to access the interior cavity 120.

The locket system 100 may comprise any suitable ease, such as a nonmodifiable case that cannot be easily modified (other than its contents) or a modular case that may be easily modified. For example, a locket system 100 according to various aspects of the present jewelry system may comprise a first portion 105 and a second portion 110, such as a back portion and a front portion. In accordance with various embodiments, it should be understood that a first portion and/or a second portion as described herein may comprise a back or base portion and/or a front or lid portion. The first portion 105 and the second portion 110 may be attached, and possibly detached, for example, by a connector interface and/or a set of opposing mating surface, as will be discussed in detail below. The connector interface and/or the mating surfaces may act alone or in concert to couple the first portion 105 and the second portion 110 to create the interior cavity 120, as described in more detail in relation to FIGS. 2A-4B. The locket system 300 may include a connection point 115. For example, the connection point 115 may comprise one or more bails, either fixed or configured to spin or otherwise move. In various embodiments, the locket system 190 may comprise a concave bevel 125 configured to allow a user to access the interior cavity 120.

In accordance with, various embodiments, it should be understood that a first portion and/or a second portion as described herein may comprise a back or base portion and/or a front or lid portion.

The first portion 105 and the second portion 110 may be configured in any suitable manner to define the interior cavity 120. The interior cavity 120 may be adapted for storage and display of any material and/or an object attached, adhered, embedded, or otherwise disposed within the interior cavity 120 to provide a changeable display of the material and/or object, such as a charm (not shown). The interior cavity 120 may comprise any dimensions adapted to store and display the material and/or object. For example, in various embodiments, the first portion 105 and the second portion 110 may form an interior cavity 120 having an interior perimeter with dimensions configured to substantially inhibit inadvertent movement of or otherwise bias a charm or an insert to retain a preset position within the interior cavity 120. In various embodiments, the first portion 105 and the second portion 110 may be suitably adapted to create an interior cavity 120 having a controlled environment. For example, the interior cavity 120 may be airtight and/or waterproof. In various embodiments, an interior perimeter of the interior cavity 120 may comprise a depth adapted to prevent a charm and/or insert from flipping or otherwise maintaining a position of the charm and/or insert, within the interior cavity 120. In various embodiments, the interior cavity 120 may comprise a hermetically sealed interior cavity 120 to create a controlled internal environment. For example, the interior cavity 120 may be airtight and/or waterproof.

The locket system 100 may also comprise one or more connection points 115, such as a bail, to facilitate attachment to, and possibly detachment from, another jewelry system element (not shown). For example, in one embodiment, the locket system 100 may be configured as a pendant comprising a single bail oriented parallel to a mid-vertical axis line 300 of the locket system 100, as shown in FIGS. 3A-B, to receive another connection, point 115 or a linking element (not shown), such as a chain. In another embodiment, the locket system 100 may be configured as a bracelet or other contiguous jewelry element having two opposing bails oriented parallel to the mid-vertical axis line 300 of the locket system 100, as shown in FIGS. 3A-B.

Referring now to FIGS. 2A-B, in various embodiments, the first portion 105 may form the back portion of the locket system 100 and may comprise an interior perimeter 202 configured to engage a window 204. In an alternative embodiment, the first portion 105 includes a solid, nontransparent surface defining the back or base portion of the locket system 100. Likewise, the second portion 110 may form the front or lid portion of the locket system 100 and may comprise an interior perimeter 206. The second portion 110 may also comprise a window 208 to facilitate viewing of the contents of the locket system 100. The interior perimeters 202, 206 may be configured to form an interior shelf 236, 238.

In various embodiments, the windows 204, 208 may be permanently affixed to the other elements of the locket system 100 to create a seal between the external environment and the interior cavity 120. In various embodiments, the windows 204, 208 may be affixed to the interior perimeters 202, 206 of the first portion 105 and the second portion 110 by any suitable adhesive, such as a polymer resin. In various embodiments, the windows 204, 208 may be affixed to the interior shelves 236, 238 of the interior perimeters 202, 206 of the first portion 105 and the second portion 110 by any suitable adhesive. For example, the adhesive may comprise a polymer resin. In one embodiment, the adhesive may be in the form of a mirror foiled adhesive film 210, such as a glass mirror film having a pair of adhesive surfaces. The adhesive film may have a foil surface. The adhesive film may be suitably adapted for any window material type, shape, size and color.

The windows 204, 208 may comprise any suitable material configured, to display the interior cavity 120 of the locket system 100, and any material and/or objects attached, adhered, embedded, or otherwise disposed within the interior cavity 120. For example, the window material may be glass, plastic, and the like. In accordance with various exemplary embodiments, the window material may be opaque, transparent, semi-transparent and/or substantially transparent.

Still referring to FIGS. 2A-B, the locket system 100 may comprise a connector system adapted to selectively couple the first portion 105 and the second portion 110 to create the interior cavity 120. The connector system may comprise any appropriate element, mechanism or system for selectively coupling the first portion 105 and the second portion 110 to form the interior cavity 120, such, as one or more clamps, magnetic couplings and/or closures, threaded surfaces, hinge assemblies, springs, locks, connectors, clips, bolts, screws, friction fittings, rivets, adhesives, and the like.

As shown in FIG. 2A, in one embodiment, the first portion 105 and the second portion 110 may be pivotally connected to allow the first portion 105 to selectively pivot around an axis relative to the second portion 110 (plane B-B) to provide selective access to the interior cavity 120. In various embodiments, the locket system 100 may comprise one or more biasing mechanisms adapted to bias or urge the first, portion 105 and the second portion 110 into a desired relative orientation, such as a closed position (as shown in FIGS. 1A-C) or an open position (as shown, in FIG. 2A). In some embodiments, the various connector system components may be selectively adjustable and lockable to provide adjustable closing or opening force. For example, in various embodiments, the biasing mechanism may provide control over closing force or speed, resistance to opening or closing forces, and the like of the first portion 105 relative to the second portion 110. In some embodiments, the closing force may at least partially be applied by a weight of the first portion 105.

In various embodiments, the connector system may comprise a connection interface 212 adapted to selectively pivot the second portion 110 relative to the first portion 105 to provide access to the interior cavity 120, a biasing mechanism adapted, to substantially bias or urge the first portion 105 and the second portion 110 to engage to form the interior cavity 120, and an engagement point adapted to limit relative movement of the first portion 105 relative to the second portion 110 when the portions are engaged, as described in more detail below.

For example, as shown in FIGS. 2A-B, the connector interface 212 may comprise a pivotal connection 218 configured to selectively pivot the second portion 110 relative to the first portion 105 to provide access to the interior cavity 120. In one embodiment, the pivotal connection 218 may comprise any suitable mechanical articulating system, such as a hinge assembly. For example, the pivotal connection 218 may comprise a hinge rod assembly 220 coupled to the first portion 105 and a hinge joint assembly 222 coupled to the second portion 110 substantially opposite the hinge rod assembly 220 when the mating surfaces 214, 216 are in an engaged position. The hinge rod assembly 220 may be suitably configured to engage the hinge hole assembly 222.

In one embodiment, the pivotal connection 218 may be configured to have a limited angular range. For example, the pivotal connection 218 may comprise a selectively positional stop to limit rotation of In one embodiment, the angular range comprises a minimum angular range of approximately 30 degrees and a maximum angular range of approximately 180 degrees. In various embodiments, the maximum angular range is selected, to bias the first portion 105 to engage the second portion 110 to form the interior cavity 120. For example, the maximum angular range may be selected such that the locket system 300 defaults to a closed position instead of an open position. In an exemplary embodiment, the angular range comprises a minimum angular range of approximately 45 and a maximum angular range of approximately 60 degrees. The pivotal connection 218 may comprise any suitable angular range, stiffness, load capability, mass, and the like. In various embodiments, the angular range may be adapted to minimize the sixe of the pivotal connection 218.

The mating surfaces 214, 216 couple the first portion 105 and the second portion 110 to create the interior cavity 120. The mating surfaces 214, 216 may comprise any appropriate system, for coupling the front portion 105 and the second portion 110, such as one or more clamps, magnetic couplings and/or closures, threaded surfaces, hinges, springs, locks, connectors, clips, bolts, screws, friction, fittings, rivets, adhesives, and the like.

In various embodiments, the first portion 105 and the second portion 110 may have a set of opposing mating surfaces 214, 216 comprising a biasing mechanism. The biasing mechanism may be configured to substantially bias the first portion 105 and the second portion 110 into a closed position. The biasing mechanism may comprise any suitable mechanism biased to inhibit inadvertent detachment: of the first, portion 105 and the second portion 110 when the first portion 105 and the second, portion 110 are engaged. In one embodiment, the biasing mechanism comprises a magnetic closure mechanism. The magnetic closure mechanism may provide a closing force to substantially bias or urge the mating surfaces 214, 216 of the first position 105 and the second portion 110 to engage to form the inferior cavity 120.

For example, in one embodiment, the magnetic closure mechanism comprises at least one magnet 230 recessed in at least one aperture 232 formed in the mating surface 214 of the first portion 105 positioned to align with and engage at least a portion of the mating surface 216 of the second portion 110. In one embodiment, the biasing mechanism may further comprise at least one oppositely positioned magnet 234 recessed in at least one oppositely positioned aperture (not shown) formed in the mating surface 216 of the second portion 110 positioned to align with and engage the at least one magnet 230 formed in the mating surface 214 of the first portion 105. In various embodiments, the at least one magnet 230 and the at least one oppositely positioned magnet 234 may be affixed in the apertures 232 formed in the mating surfaces 214, 216 by press fit, adhesive, and the like.

The at least one magnet 230 and the at least one oppositely positioned magnet 234 may comprise any collective magnetic field, strength range required to provide a closing force to substantially bias or urge the mating surfaces 214, 216 of the first position 105 and the second portion 110 to engage to form the interior cavity 120 and to inhibit inadvertent detachment of the first portion 105 and the second portion 110 upon engagement. In one embodiment, the magnetic field strength range comprises approximately 1500-2000 Gauss. In an exemplary embodiment, the magnet field strength range is approximately 1800 Guass.

In various embodiments, the magnetic field strength range may be selected to maintain a desired shape, such as the angle of a terminal apex of a heart-shaped locket, system, as discussed in more detail in FIGS. 3A-3B. In various embodiments, the least one magnet 230 and the at least one oppositely positioned magnet 234 may comprise any suitable magnet set having opposite polarities. For example, the at least one magnet 230 and the at least one oppositely positioned magnet 234 may comprise any suitable size, shape, material, strength, or the like. In one embodiment, the at least one magnet 230 and the at least one oppositely positioned magnet 234 may comprise round cuts having a collective magnet field strength range of approximately 1800 Guass.

In one embodiment, the mating surfaces 214, 216 may further comprise an engagement point adapted to substantially limit relative movement of the first portion 105 relative to the second portion 110 when the portions are engaged. The engagement point may comprise any suitable element, system or mechanism suitable to align the first portion 105 and the second portion 110 to inhibit inadvertent axial, radial, and/or lateral, movement of the first portion 105 relative to the second portion 110 when the locket system 100 is in a closed position. In one embodiment, the engagement point comprises a stud 226 attached to the mating surface 214 of the first portion 105 configured to engage a hole 228 formed in the mating surface 216 of the second, portion 110. The stud 226 travels into the hole 228 as the second portion 110 approaches and abuts the first portion 105.

Referring now to FIGS. 3A-3B, the shape of the first and second portions 105, 110 will be discussed. The first portion 105 and second portion 110 may comprise any suitable shape or dimension, which may be determined according to a desired design. For example, referring to FIGS. 3A-3B, the first portion 105 and second portion 110 may comprise a generally heart shaped body.

Referring now to FIG. 3A, the first portion 105 may comprise a lower termination point 302 and an upper termination point 304. A first side portion 306 and a second side portion 308 may extend between the lower termination point 302 and the upper termination point 304. The first side portion 306 and the second side portion 308 may be substantially mirror images of one another, divided along a mid-vertical, axis line 300.

A first sidewall element 310 of the first side portion 306 may form a generally straight surface that extends from the lower termination point 302 to a first radial point 312. A first transition element 314 may form a generally curved surface from the first radial point 312 to a second radial point 316 before forming or otherwise engaging a second sidewall element 318 at the second radial point 316. The second sidewall element 318 may extend from the second radial point 316 to the upper termination point 304.

Similarly, a first sidewall element 320 of the second side portion 308 may form a generally straight surface that extends from the lower termination point 302 to a first radial point 322. A first transition element 324 may form a generally curved surface from the first radial point 322 to a second radial, point 326 before forming or otherwise engaging a second sidewall element 328 at the second radial point 326. The second sidewall element 328 may extend from the second radial point 326 to the upper termination point 304.

Referring now to FIG. 3B, the second portion 110 may comprise a lower termination point 330 and an upper termination point 332. A first side portion 334 and a second side portion 336 may extend between the lower termination point 330 and the upper termination point 332. The first side portion 334 and the second side portion 336 may be substantially mirror images of one another, divided along the mid-vertical axis line 300.

A first, sidewall element 338 of the first side portion 334 may form a generally straight surface that extends from the lower termination point 330 to a first radial point 340. A first transition element 342 may form a generally curved surface from the first radial point 340 to a second radial point 344 before forming or otherwise engaging a second sidewall element 346 at the second radial point 344. The second sidewall element 346 may extend from the second radial point 344 to the upper termination point 332.

Similarly, a first sidewall element 348 of the second side portion 336 may form a generally straight surface that extends from the lower termination point 330 to a first radial point 350. A first transition element 352 may form a generally curved surface from the first radial point 340 to a second radial point 354 before forming or otherwise engaging a second sidewall element 356 at the second radial point 354. The second, sidewall element 356 may extend from the second radial point 354 to the upper termination point 332.

Referring now to FIGS. 4A-B, the position of the biasing mechanism of the mating surfaces 214, 216 of the first and second portions 105, 110 will be discussed. In various embodiments, the position of the biasing mechanism components may be selected to maintain the heart shaped locket system 100 in a desired configuration or shape. For example, the position of a magnet may be selected to facilitate or cause the lower termination point of each of the first portion and the second portion to form a terminal apex of a heart-shaped locket system, having a particular angle measure. For example, in one embodiment, the lower termination point 302 of the first portion 105 and the lower termination point 330 of the second portion 110 may comprise a terminal apex forming an angle measuring less than 45 degrees. In another embodiment, the lower termination point 302 of the first portion 105 and of the lower termination point 330 of the second portion 110 may comprise a terminal apex forming an angle measuring between approximately 45 degrees and approximately 60 degrees.

Referring now to FIG. 4A, in one embodiment, the at least one magnet 230 of the first side portion 306 of the first portion 105 may comprise a set of three magnets comprising a first magnet 402, a second magnet 404 and a third magnet 406 recessed in a first set of apertures formed in the mating surface 214 of the first side portion 306 of the first portion 105. For example, the first magnet 402 may be positioned at a midpoint of the first sidewall element 310, the second magnet 404 may be positioned at a midpoint of the first transition element 314 and the third magnet may be positioned at a midpoint of the second sidewall element 318. The first magnet 402 and the third magnet 406 may be generally aligned along a vertical axis line 408. The second magnet 404 may be generally aligned along a horizontal axis line 410 substantially perpendicular to the vertical axis line 408 and clockwise of the third magnet 406.

Referring now to FIG. 4B, the at least one oppositely positioned magnet 234 of the first sidewall element 348 of the second side portion 336 of the second portion 110 may comprise a set of three oppositely positioned magnets comprising a first oppositely positioned magnet 412, a second oppositely positioned magnet 414 and a third oppositely positioned magnet 416 recessed in a set of oppositely positioned apertures formed in the mating surface 216 of the second portion 110 and positioned to align with and engage the first set of magnets when the mating surfaces 214, 216 of the first portion 105 and the second portion 110 approach and abut to form the interior cavity 120.

For example, the first oppositely positioned magnet 412 may be positioned at a midpoint of the first sidewall element 348, the second oppositely positioned magnet 414 may be positioned at a midpoint of the first transition element 352 and the third oppositely positioned magnet 416 may be positioned at a Midpoint of the second sidewall element 356. The first oppositely positioned magnet 412 and the third oppositely positioned magnet 416 may be generally aligned along a second vertical axis line 418. The second oppositely positioned magnet 414 may be generally aligned along a second horizontal axis line 420 substantially perpendicular to the second vertical axis line 418 and clockwise of the first oppositely positioned magnet 412. Referring to FIGS. 3A-B and FIGS. 4A-B, the position of the connector interface 212 comprising the pivotal connection 218 will be discussed. In one embodiment, the hinge pivotal connection 218 may be disposed within a recess proximate to the first radial element of at least one of the first side section and the second side section of at least one of the first portion and the second portion wherein the hinge assembly is configured to facilitate the movement of the first portion relative to the second portion. For example, the pivotal connection 218 may comprise a hinge assembly comprising a hinge rod assembly 220 coupled to the first portion 105 and a hinge joint assembly 222 coupled to the second portion 110. The pivotal connection 218 components may be positioned inferior to the horizontal axes lines 410, 420 at the first radial point 322 of the second side portion 308 of the first portion 105 and the first, radial point 340 of the first side portion 334 of the second portion 110. For example, referring to FIGS. 3A and 4A, the hinge rod assembly 220 may be recessed in an outer edge of the mating surface 216 proximate to the first radial point 322 of the first portion 105. Referring to FIGS. 3B and 4B, the hinge hole assembly 222 may be recessed in art outer edge of the mating surface 216 proximate to the first radial point 340 of the second portion 110 and configured to receive the hinge rod assembly 220.

Still referring to FIGS. 3A-B and 4A-B, the position of the engagement point comprising the stud 226 and the hole 228 will be discussed. In one embodiment, the engagement point may be positioned superior to the horizontal axes lines 410, 420 and diagonally opposite the pivotal connection 218 on diagonal axes lines 423, 425. For example, referring to FIGS. 3A and 4A, the stud 226 may be positioned on the mating surface 214 of the first transition element 314 of the first portion 105 at a midpoint 424 substantially clockwise of the third magnet 406 and substantially counterclockwise of the second magnet 404. Referring to FIGS. 3B and 4B, the hole 228 may be formed in the mating surface 216 of second transition element 324 of the second portion 110 at a midpoint 426 substantially counterclockwise of the third oppositely positioned magnet 416 and substantially clockwise of the second oppositely positioned magnet 414.

Still referring to FIGS. 3A-4A, the concave bevel 125 may be positioned on the first transition element 314 of the first portion 105 at the midpoint 424 substantially clockwise of the third magnet 406 and substantially counterclockwise of the second magnet 404.

The interior cavity 120 of the locket system 100 may be sealed, for example to maintain the integrity of the contents, prevent loss of the contents (especially liquid or gaseous contents), and/or maintain a particular environment within the interior cavity 120. In various embodiments, the seal may comprise a hermetic seal, a water resistant seal, and/or a seal against particular elements.

The seal may be created and maintained in any suitable manner, such as by adding one or more sealing elements to the locket system 100 and/or integrating one or more sealing elements to the locket system 100. The sealing element may comprise any suitable material and/or configuration, such as grease, wax, o-rings, encapsulated o-rings, sealing rings, sealing sleeves, sealing tape, and/or resin string.

For example, referring to FIGS. 1A-C and FIGS. 2A-B, in various embodiments, at least one of the first portion 105 and the second, portion 110 may further comprise a sealing element (not shown) disposed within a groove (not shown) in the mating surface 216 of the second portion 110 and between the mating surface 214 of the first portion 105. The sealing element may inhibit penetration of contaminants, moisture, and/or air into the interior cavity 120. For example, the sealing element may comprise an o-ring, such as a conventional, resilient deformable o-ring formed of rubber or a comparable synthetic material.

Referring to FIGS. 1A-C and FIG. 4, the locket system 100 may further comprise a charm or an insert, such as an insert, backdrop, ornament, keepsake, dangle, amulet, talisman, or decorative item. In various embodiments, the charm may be adapted to substantially easily attach to, and possibly detach, from, one or more linking elements (not shown) and/or locket systems 100. In various embodiments, the charm may be adapted to be attached, adhered, embedded, or otherwise positioned in the locket system 100, such as within, the interior cavity 120 of the locket system 100 and/or attached to one or more of a modular components of a modular interchangeable jewelry system via a connection point 115.

For example, the locket system 100 may further comprise elements adapted for insertion into the interior cavity 120. In various embodiments, such elements may have appropriate dimensions to be inserted into the interior cavity 120 and fit relatively snugly to maintain the position in the interior cavity 120. For example, referring to FIG. 5, a locket insert system 500 may include a main body 505 adapted for insertion into the interior cavity 120.

The main body 505 may comprise an element to be inserted, into the interior cavity 120, such as a decorative item. In one embodiment, the main body 505 comprises a rim 510 comprising an outside edge slightly smaller than the interior perimeters 202, 206 of the first and second portions 105, 110 of the locket system 100. The main body 505 may further comprise an inner design element (not shown) disposed interior to the rim (not shown). The inner design element may comprise any dimension adapted to be disposed interior to the rim. In various embodiments, the outside edge of the rim 515 may define a heart shaped surface.

The rim 515 and the inner design element may define at least one aperture (not shown), wherein the aperture is configured to provide a selected amount of visibility of a portion of the interior cavity 120 and/or a jewelry system component disposed within the interior cavity 120. In various embodiments, the aperture may be adapted to display the interior cavity 120 of the locket system 100, and any design elements attached, adhered, embedded, or otherwise disposed within the interior cavity 120. In various embodiments, the locket insert system 500 may further comprise an operable member (not shown) adapted to substantially easily attach and detach from the locket system 100. In one embodiment, the operable member is a pull tab.

In various embodiments, the main body 505 may comprise any appropriate system for maintaining a desired position of the main body 505 within the interior cavity 120, such as to substantially control or prevent movement of the main body 505. For example, the main body 505 may comprise a biasing member (riot shown) such as a friction element, a brake, a stop, a lock, or other suitable mechanical system.

In one embodiment, the outside edge of the rim 515 may define a heart-shaped surface having a groove (not shown) adapted to receive a resilient heart shaped o-ring (not shown) such that the o-ring protrudes beyond the sides of the groove and the outer cylindrical surface of the rim to engage the interior wall of the locket. When the o-ring is seated, in the groove, the locket insert system 500 may be inserted into the interior cavity 120 and the o-ring may friction ally engage the interior surface of the locket system 100. The o-ring may comprise any suitable material, such as rubber or silicone.

The various modular components of the modular interchangeable jewelry system may comprise any suitable additional elements and features. For example, referring to FIGS. 6A-B, the locket system 100 may include a decorative surface 605. The decorative surface 605 may comprise etched detailing, embedded objects, and the like. In one embodiment, the decorative surface 605 may comprise at least one decorative object 610. The decorative object 610 may comprise rhinestones, beads, diamonds, or the like comprising any suitable cut, facet, or the like. For example, the at least one decorative object 610 may comprise a round cut. In various embodiments, the decorative surface 605 may comprise a removable faceplate or may comprise interconnecting and exchangeable modular components, such as decorative objects 610 adapted to substantially easily attach and detach to and from the decorative surface 605. A customizable decorative surface 605 allows the user to build or alter the decorative surface 605 according to individual or personalized specifications and functions.

The decorative object 610 may be adhered to, attached to or otherwise embedded, in or on one or more of the linking elements, locket systems 100, and/or charms in any suitable manner. For example, the one or more surfaces may be adapted to receive the at least one decorative object 610.

In accordance with various embodiments of the technology, the components of the locket system 100 may comprise any suitable material adapted for interconnecting, coupling, linking, fastening, securing, pulling, sealing, adjusting, and/or supporting the one or more linking elements, locket systems, connection points, and/or any other modular components of the locket system 100. For example, the material may comprise stainless steel, glass, titanium, rubber, silicone, neoprene, plastic, fabric, and the like. In various embodiments, the material may comprise any suitable material adapted to be bendable, twistable, linked, and the like to conform to a particular part of a user's body.

The particular implementations shown and described are illustrative of the technology and its best mode and are not intended to otherwise limit the scope of the present technology in any way. Indeed, for the sake of brevity, conventional manufacturing, connection, preparation, and other functional aspects of the system may not be described in detail. Furthermore, the connecting lines shown in the various figures are intended to represent exemplary functional relationships and/or steps between the various elements. Many alternative or additional functional relationships or physical connections may be present in a practical system.

In the foregoing description, the technology has been described with reference to specific exemplary embodiments. Various modifications and changes may be made, however, without departing from the scope of the present technology as set forth. The description and figures are to be regarded in an illustrative manner, rather than a restrictive one and ail such modifications are intended to be included within the scope of the present technology. Accordingly, the scope of the technology should be determined by the generic embodiments described and their legal equivalents rather than by merely the specific examples described above. For example, the steps recited in any method or process embodiment may be executed in any appropriate order and are not limited to the explicit order presented in the specific examples. Additionally, the components and/or elements recited in any system embodiment may be combined in a variety of permutations to produce substantially the same result as the present technology and are accordingly not limited, to the specific configuration recited in the specific examples.

Benefits, other advantages and solutions to problems have been described above with regard to particular embodiments. Any benefit, advantage, solution to problems or any element that may cause any particular benefit, advantage or solution to occur or to become mote pronounced, however, is not to be construed as a critical, required or essential feature or component.

This description is merely exemplary in nature and is in no way intended to limit the various embodiments or their application or uses. The phrase “at least one of A, B, and C” should be construed, to mean a logical (A or B or C), using a non-exclusive logical “or.” The phrase “A, B and/or C” should be construed to mean (A, B, and C) or alternatively (A or B or C), using a non-exclusive logical “or.” Unless otherwise stated or apparent from the context, steps within a method may be executed in different order without altering the principles of the present disclosure.

The terms “comprises”, “comprising”, or any variation thereof, are intended to reference a non-exclusive inclusion, such that a process, method, article, composition or apparatus that comprises a list of elements does not include only those elements recited, but may also include other elements not expressly listed or inherent to such process, method, article, composition or apparatus. Other combinations and/or modifications of the above-described structures, arrangements, applications, proportions, elements, materials or components used in the practice of the present technology, in addition to those not specifically recited, may be varied or otherwise particularly adapted to specific environments, manufacturing specifications, design parameters or other operating requirements without departing from the general principles of the same.

The present technology has been described above with reference to an exemplary embodiment. However, changes and modifications may be made to the exemplary embodiment without departing from the scope of the present technology. These and other changes or modifications are intended to be included within the scope of the present technology. 

1. A heart shaped locket system, comprising: a first portion and a second portion defining an interior cavity coupled by a pivotal connection, wherein: the first portion comprises: an interior surface; and a mating surface, comprising: at least one magnet recessed in at least one aperture; and the second portion comprises: an interior surface comprising a window; and a mating surface adapted to releasably engage a portion of the mating surface of the first portion to form the interior cavity; and wherein; each of the first portion and a second portion comprise: an exterior surface, comprising: a lower termination point; an upper termination point; and a pair of symmetrical sections, each comprising:  a first side portion and a second side portion extending between the lower termination point and the upper termination point, wherein:   each of the first side section and the second side section comprises:    a first sidewall element forming a generally straight surface extending between the lower termination point to a first radial point;    a first transition clement forming a generally curved surface extending between the first radial point to a second radial point; and    a second sidewall element forming a generally straight surface extending between the second radial point to the upper termination point.
 2. The heart, shaped locket system of claim 1, wherein the interior surface of the first portion comprises a window.
 3. The heart shaped, locket system of claim 1, wherein the lower termination points of each of the first portion and the second portion comprises a terminal apex forming an angle measuring between approximately 45 degrees and approximately 60 degrees.
 4. The heart shaped locket system of claim 1, wherein the lower termination points of each of the first portion and the second portion comprises a terminal apex forming an angle measuring less than 45 degrees.
 5. The heart shaped locket system of claim 1, wherein the pivotal, connection comprises a hinge assembly disposed within a recess proximate to the first radial element of at least one of the first side section and the second side section of at least one of the first portion and the second portion wherein the hinge assembly is configured to facilitate the movement of the first portion, relative to the second portion.
 6. The heart shaped locket system of claim 1, wherein the first portion, is adapted to pivot about a pivot axis defined through a hinge assembly over a limited angular range relative to a planar surface of the second portion while the second portion remains in a fixed position.
 7. The heart shaped locket system of claim 1, wherein; the mating surface of the second, portion further comprises a hole, and the mating surface of the first portion further comprises a stud sized and positioned to selectively engage the hole when the mating surface of the first portion and the mating surface of the second portion are in an engaged configuration to prevent inadvertent relative, movement of the first portion and the second portion.
 8. The heart shaped locket system of claim 7, wherein; the stud and the hole are positioned substantially diagonally opposite the position of the pivotal connection when the mating surface of the first portion and the mating surface of the second portion are in an engaged configuration.
 9. The heart shaped locket system of claim 1, further comprising a concave bevel formed in a surface of at least one of the first portion or the second portion, wherein: the concave bevel is positioned proximate to the engagement point and substantially diagonally opposite the position of the pivotal connection when the mating surface of the first portion and the mating surface of the second portion are in an engaged configuration.
 10. The heart shaped locket system of claim L wherein the mating surface of the second portion further comprises at least one oppositely positioned magnet recessed in at least one oppositely positioned aperture, wherein; the at least one oppositely positioned magnet is positioned to align with and engage the at least one magnet formed in the mating surface of the first portion when the first, portion and the second portion are in an engaged configuration.
 11. The heart shaped locket system of claim. 1, wherein: the least one magnet recessed in at least one aperture of the mating surface of the first portion further comprises: a first magnet positioned at a midpoint of the first sidewall element; a second magnet positioned at a midpoint of the first transition element; and a third magnet positioned at a midpoint of the second sidewall element, wherein: the first magnet and the third magnet may be generally aligned along a vertical axis line; and the second magnet may be generally aligned along a horizontal axis line substantially perpendicular to the vertical axis line and clockwise of the third magnet.
 12. The heart shaped, locket system of claim 11, wherein the mating surface of the second portion further comprises at least one oppositely positioned magnet recessed in at least one oppositely positioned aperture, wherein the at least one oppositely positioned magnet comprises: a first oppositely positioned magnet positioned to engage the first magnet; a second oppositely positioned magnet positioned to engage the second magnet; and a third oppositely positioned magnet positioned to engage the third magnet, when the mating surface of the first portion and the mating surface of the second portion are in an engaged configuration.
 13. The heart shaped locket system of claim 12, wherein the at least one magnet and the at least one oppositely positioned magnet comprise a magnetic field strength range of approximately 1500 Gauss to approximately 2000 Gauss.
 14. The heart shaped locket system of claim 12, wherein the magnet field strength range is selected to substantially inhibit inadvertent detachment of the mating surface of the first portion and the mating surface of the second portion after engagement.
 15. The heart shaped locket system of claim 12, wherein the magnet field strength range is selected to substantially bias the mating surface of the first portion and the mating surface of the second portion to an engaged configuration.
 16. The heart shaped locket system of claim 12, wherein the magnetic field strength range comprises approximately 1800 Gauss.
 17. The heart shaped locket system of claim 6, wherein the angular range comprises a minimum angular range of approximately 30 degrees and a maximum angular range of approximately 180 degrees.
 18. The heart shaped locket system of claim 6, wherein the angular range comprises a minimum angular range of approximately 45 degrees and a maximum angular range of approximately 60 degrees.
 19. The heart shaped locket system of claim 6, wherein the maximum angular range is selected to substantially bias the mating surface of the first portion and the mating surface of the second portion to an engaged configuration.
 20. The heart shaped locket system of claim 1, wherein at least one of the first portion and the second portion comprises a decorative surface.
 21. The heart shaped locket system of claim 20, wherein the decorative surface comprises a decorative object.
 22. The heart shaped locket system of claim 1, wherein the interior cavity is configured to display an object.
 23. The heart shaped locket system of claim 1, may further comprise an interchangeable locket insert system comprising: a main body adapted for insertion info the interior cavity, wherein the main body comprises dimensions adapted; to be inserted into the interior cavity and snugly engage the interior cavity to substantially prevent inadvertent displacement. 